An ab initio-parameterized quantum Boltzmann equation framework predicts a huge ultrafast spin Seebeck effect from superdiffusive magnon currents in laser-excited bcc Fe films.
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Kinetic modeling demonstrates that electron-electron and electron-phonon scattering each suffice to thermalize hot-electron distributions along distinct trajectories, with comparable timescales at weak excitations.
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Huge ultrafast spin Seebeck effect mediated by laser-excited superdiffusive magnon currents
An ab initio-parameterized quantum Boltzmann equation framework predicts a huge ultrafast spin Seebeck effect from superdiffusive magnon currents in laser-excited bcc Fe films.
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Competing thermalization pathways of photoexcited hot electrons
Kinetic modeling demonstrates that electron-electron and electron-phonon scattering each suffice to thermalize hot-electron distributions along distinct trajectories, with comparable timescales at weak excitations.